|01||Alcuin Of York||20171218||Philip Ball dives into the Dark Ages to reveal the author of the river crossing riddle|
The Dark Ages are often painted as an era of scholarly decline. The Western Roman Empire was on its way out, books were few and far between, and, if you believe the stereotype, mud-splattered peasants ran around in rags.
However, it was far more intellectually vibrant than you might imagine. Out of this era emerged a set of ‘problems to sharpen the young,' including the famous river crossing puzzle that's still taught in maths today. The presumed author of these riddles is Alcuin of York – ‘the most learned man in the world.' And it was this monk and his puzzles that laid the foundations for a branch of mathematics called combinatorics – the thinking behind today's computer coding and cryptography.
Philip Ball speaks to historian Mary Garrison from the University of York to learn of Alcuin's character and how he encouraged his students to learn for the sake of learning, as opposed to salvation. And University College London mathematician Hannah Fry shows Philip just how much of a role combinatorics plays in today's world.
Picture: White horned goat chewing a cabbage leaf, Credit: Oxana Medvedeva
Producer: Graihagh Jackson
|02||Maria Merian||20171225||How a 13-year old girl mapped metamorphosis in the 1600s. Naomi Alderman presents|
Maria Merian was born in 1647. At the time of her birth, Shakespeare had been dead for 30 years; Galileo had only just stood trial for arguing that the Earth moved around the Sun. And yet, here in Germany, was a child who would become an important but oft-forgotten figure of science.
Aged 13, she mapped out metamorphosis, catching caterpillars from her garden and painting them in exquisite detail. At that point, most believed that caterpillars spontaneously generated from cabbages and maggots materialised from rotten meat. She later voyaged to Suriname in South America to pursue pupae further, discovering not just new species but also the conditions needed for their survival.
Some call her the first field ecologist; others admire her for her eloquent brushwork. However, her studies will help today's biologists plot which insects lived where. These data are invaluable because this could help scientists predict what species will survive climate change.
Naomi Alderman discusses the life and legacy of Maria Merian with biologist and historian Kay Etheridge from Gettysburg College, Pennsylvania and biologist Kathy Willis from Kew Gardens.
Picture: Belly-ache bush (Jatropha gossypifolia) with metamorphosis of a giant sphinx moth (Cocytius antaeus), created by Maria Sibylla Merian and Joseph Mulder, Credit: GRI Digital Collections
Producer: Graihagh Jackson
|03||Lise Meitner||20180108||The story of physicist Lise Meitner, who unlocked the science of the atom bomb after a terrifying escape from Hitler's Germany.|
Philip Ball reveals the dramatic tale of Lise Meitner, the humanitarian physicist of Jewish descent, who unlocked the science of the atom bomb after a terrifying escape from Hitler's Germany. One of the most brilliant nuclear scientists working in Germany her flight from terror cost Hitler's regime dearly.
In the early twentieth century it was barely possible for women to work in science at all and yet Einstein once called Meitner Germany's own Marie Curie. It was Meitner's insight that began the nuclear age and her story remains ever relevant, as the threat of nuclear conflict lies once again over the world.
Philip Ball talks to historian Dr Patricia Fara about Lise Meitner and her research and to Patricia Lewis of the International Campaign to Abolish Nuclear Weapons or ICAN, based in Geneva, which this year was awarded the Nobel Peace prize for its work in trying to reverse nuclear proliferation, about Meitner's legacy today.
How physicist Lise Meitner unlocked the science of the atom bomb that cost Hitler dearly
In the early 20th Century it was barely possible for women to work in science at all and yet Einstein once called Meitner Germany's own Marie Curie. It was Meitner's insight that began the nuclear age and her story remains ever relevant, as the threat of nuclear conflict lies once again over the world.
Picture: Lise Meitner, Credit: Central Press/Getty Images
|04||Humphry Davy||20180115||The story of how Humphry Davy discovered laughing gas in 1799.|
In Bristol in 1799, a young man started to experiment with newly discovered gases, looking for a cure for tuberculosis. Humphry Davy, aged 20, nearly killed himself inhaling carbon monoxide. Nitrous oxide was next. It was highly pleasurable, ‘particularly in the chest and extremities' and he began to dance around his laboratory ‘like a madman', before passing out. By day, he gave the gas to patients, carefully noting their reactions. In the evenings, he invited his friends over to have a laugh (with assistants on standby to revive them with oxygen, as needed).
The Romantic poets, Robert Southey and Samuel Taylor Coleridge could barely contain their excitement.
A new generation of pleasure seekers have started experimenting, just as Davy did, despite the associated risks of injuries caused by fainting and death by suffocation.
Naomi Alderman tells how a gas that created ‘ecstatic lunatics' came to be used as an anaesthetic, with help from biographer, Richard Holmes and anaesthetist, Kevin Fong.
Picture: Humphry Davy and Anaesthesia, Credit: Science Photo Library